AbstractWe show that if two finite Kripke structures can be distinguished by some CTL∗ formula that contains both branching-time and linear-time operators, then the structures can be distinguished by a CTL formula that contains only branching-time operators. Our proof involves showing that, for any finite Kripke structure M, it is possible to construct a CTL formula FM that uniquely characterizes M. Since one Kripke structure may be a trivial unrolling of another, we use a notion of equivalence between Kripke structures that is similar to the notion of bisimulation studied by Milner [15].Our first construction of FM requires the use of the nexttime operator. We also consider the case in which the nexttime operator is disallowed in CTL formu...
While specifications and verifications of concurrent systems employ Linear Temporal Logic (), it is ...
BDI logics, i.e., logics with belief, desire and intention attitudes, are one of the most widely stu...
As specifications and verifications of concurrent systems employ Linear Temporal Logic (LTL), it is ...
AbstractWe show that if two finite Kripke structures can be distinguished by some CTL∗ formula that ...
Concurrent systems are often modeled by labeled state--transition graphs called Kripke Structures [5...
. We extend the notion of bisimulation to Kripke structures with fairness. We define equivalences th...
Model checking is a powerful method widely explored in formal verification. Given a model of a syst...
We extend the usual notion of Kripke Structures with a weighted transition relation, and generalize ...
We present an algorithm for checking whether an infinite transition system, defined by a graph gramm...
Model checking is a powerful method widely explored in formal verification. Given a model of a syste...
Model checking allows one to automatically verify a specification of the expected properties of a sy...
34 pagesInternational audienceThis paper presents a range of quantitative extensions for the tempora...
Some temporal properties of reactive systems, such as actions with duration and temporal aggregation...
Abstract. We extend the usual notion of Kripke structures with a weighted tran-sition relation and g...
Some temporal properties of reactive systems, such as actions with duration and temporal aggregation...
While specifications and verifications of concurrent systems employ Linear Temporal Logic (), it is ...
BDI logics, i.e., logics with belief, desire and intention attitudes, are one of the most widely stu...
As specifications and verifications of concurrent systems employ Linear Temporal Logic (LTL), it is ...
AbstractWe show that if two finite Kripke structures can be distinguished by some CTL∗ formula that ...
Concurrent systems are often modeled by labeled state--transition graphs called Kripke Structures [5...
. We extend the notion of bisimulation to Kripke structures with fairness. We define equivalences th...
Model checking is a powerful method widely explored in formal verification. Given a model of a syst...
We extend the usual notion of Kripke Structures with a weighted transition relation, and generalize ...
We present an algorithm for checking whether an infinite transition system, defined by a graph gramm...
Model checking is a powerful method widely explored in formal verification. Given a model of a syste...
Model checking allows one to automatically verify a specification of the expected properties of a sy...
34 pagesInternational audienceThis paper presents a range of quantitative extensions for the tempora...
Some temporal properties of reactive systems, such as actions with duration and temporal aggregation...
Abstract. We extend the usual notion of Kripke structures with a weighted tran-sition relation and g...
Some temporal properties of reactive systems, such as actions with duration and temporal aggregation...
While specifications and verifications of concurrent systems employ Linear Temporal Logic (), it is ...
BDI logics, i.e., logics with belief, desire and intention attitudes, are one of the most widely stu...
As specifications and verifications of concurrent systems employ Linear Temporal Logic (LTL), it is ...